CN116443399B - Glass finished product strorage device with multiple fixed function - Google Patents

Abstract

The invention discloses a glass finished product storage device with multiple fixing functions, and relates to the technical field of glass storage. Including the box, box sliding connection has first carriage, and first carriage rigid coupling has first fixed plate, and first fixed plate articulates there is the second fixed plate, and first fixed plate all rigid coupling has the adsorption equipment with the second fixed plate, and first carriage is provided with first fixed subassembly, and first fixed subassembly is including first sliding plate, and first sliding plate sliding connection is in first carriage, and first sliding plate rigid coupling has the locating part, and the locating part is provided with the spacing groove, and the adsorption equipment rigid coupling of first fixed plate rigid coupling has first dead lever, and first dead lever rigid coupling has first slide bar, and first slide bar sliding connection has the stopper. According to the invention, the glass is fixed step by step and multiple times by matching the absorption part, the first sliding plate and the limiting plate, so that the stability of the glass in the temporary storage and transportation processes is improved, and the glass is prevented from falling and toppling.

Description

Glass finished product strorage device with multiple fixed function

Technical Field

The invention relates to the technical field of glass storage, in particular to a glass finished product storage device with multiple fixing functions.

Background

With the development of the current science and technology, the application range of glass products is wider and wider, the glass products such as glass plates are widely applied to buildings, and after the glass plates are manufactured, the glass plates are required to be stored, so that the glass plates are convenient to use and the occupied space is reduced.

The existing glass storage device is single, the fixing effect on glass is poor, in the storage process, if the storage device shakes, the relative displacement between the glass and the storage device can be caused, the glass is damaged, normal use of the glass is affected, and if the strength control of the glass is poor in the placing process, the glass can be caused to rub or collide with the storage device rapidly, and the integrity of the glass is affected.

Disclosure of Invention

The present invention provides a finished glass product storage device with multiple fixing functions, which overcomes the disadvantages mentioned in the background art.

The technical proposal is as follows: the utility model provides a glass finished product strorage device with multiple fixed function, the power distribution box comprises a box body, the box articulates there is the chamber door, box sliding connection has equidistant first carriage that distributes, first carriage rigid coupling has first fixed plate, first fixed plate articulates there is the second fixed plate, first fixed plate all rigid coupling has the adsorption piece with the second fixed plate, adjacent adsorption piece opposite distribution, first carriage is provided with the first fixed subassembly that is used for spacing glass, first fixed subassembly is including first sliding plate, first sliding plate sliding connection is in first fixed plate, be provided with the spring between first sliding plate and the first fixed plate, first sliding plate rigid coupling has the spacing with first fixed plate sliding connection, the spacing is provided with equidistant spacing groove that distributes, the adsorption piece rigid coupling of first fixed plate has first dead lever, first dead lever rigid coupling has first slide, first sliding lever sliding connection has the stopper with spacing groove complex of spacing, be provided with the spring between stopper and the first fixed lever, first sliding plate rigid coupling has the connection rope, the second fixed subassembly that is used for spacing with second glass.

Further, the limiting block is in one-way limiting fit with the limiting groove of the limiting frame.

Further, the first fixed plate is hinged with a driving piece, and the telescopic end of the driving piece is hinged with the second fixed plate.

Further, the second fixed subassembly is including the second carriage of symmetric distribution, second carriage sliding connection is in the second fixed plate, second carriage rigid coupling has first rack, be provided with drive assembly between second fixed plate and the first carriage, drive assembly and first rack cooperation, second carriage sliding connection has the third slide bar of equidistance distribution, the third slide bar of equidistance distribution all rigid coupling has the limiting plate, be provided with the spring between limiting plate and the adjacent second carriage.

Further, the transmission assembly comprises a first transmission rod, the first transmission rod is rotationally connected to a second fixed plate through a mounting frame, the second fixed plate is rotationally connected with second transmission rods which are symmetrically distributed through the mounting frame, the first transmission rods and the second transmission rods which are symmetrically distributed are all transmitted through bevel gear sets, the second fixed plate is fixedly connected with first straight gears which are symmetrically distributed, the first sliding frame is fixedly connected with fixing frames which are symmetrically distributed, the fixing frames are rotationally connected with second straight gears which are meshed with adjacent first straight gears through rotating shafts, the second fixed plate is fixedly connected with spline connecting rods which are symmetrically distributed through the mounting frame, the spline connecting rods are slidingly connected with rotating blocks, the rotating blocks are rotationally connected with rotating shafts of the adjacent fixing frames, the spline connecting rods are in transmission with rotating shafts of the adjacent fixing frames through bevel gear sets, the first transmission rods and the spline connecting rods which are symmetrically distributed are all transmitted through the bevel gear sets, and the second transmission rods are fixedly connected with third straight gears and fourth straight gears which are meshed with the adjacent first racks.

Further, the second fixed plate sliding connection has the third carriage of symmetric distribution, and third carriage rigid coupling has the second dead lever of rotating with first fixed plate and being connected, and third carriage sliding connection has the second slide bar, and the second slide bar rigid coupling has the L shape pole of equidistance distribution, and the third slide bar is provided with the spacing groove of equidistance distribution, and L shape pole and the spacing cooperation of the spacing groove of adjacent third slide bar are provided with the spring between L shape pole and the adjacent second carriage.

Further, the second fixed plate sliding connection has the deflector of symmetric distribution, and the deflector rigid coupling has the second rack, and second rack and second fixed plate sliding connection, second rack and adjacent fourth straight-tooth gear engagement, deflector rotation are connected with the dwang of equidistance distribution, dwang and glass cooperation for reduce the frictional force that glass receives.

Further, the glass support device further comprises a support bottom assembly, the support bottom assembly is used for supporting glass, the support bottom assembly is arranged on the second fixing plate, the support bottom assembly comprises a sliding block which is connected to the second fixing plate in a sliding mode, a spring is arranged between the sliding block and the second fixing plate, and a supporting plate is fixedly connected to the sliding block.

Further, the support plate is slidably connected with a second slide plate for adjusting the position of the glass.

Further, the lengths of the supporting plate and the second sliding plate are smaller than the distance between the symmetrically distributed guide plates.

The invention has the beneficial effects that: according to the invention, the two sides of the glass are fixed in an adsorption manner through the adsorption piece, the upper side of the glass is limited by the first sliding plate, and the glass is fixed in the vertical direction, so that the glass is prevented from shaking in the up-down direction in the storage process, and all the sides of the glass are limited and protected through the cooperation of the limiting plate, the adsorption piece and the first sliding plate, so that the glass is prevented from being rubbed or broken due to displacement; the friction force born by the glass in the process of placing the glass is reduced by the contact of the rotating rod and the glass, so that the integrity of the glass is ensured; through backup pad and glass simultaneous movement to the speed of placing the in-process through the spring of backup pad is cushioned, reduces the impact force that receives when glass is placed, simultaneously through the synchronous slip of second sliding plate and glass, guarantees glass's safety and stability, prevents that glass from taking place wearing and tearing or crushing.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the inside of the case of the present invention.

Fig. 3 is a schematic perspective view of the first sliding frame, the first fixing plate and other parts according to the present invention.

Fig. 4 is a schematic perspective view of the first sliding frame, the second fixing plate and other parts according to the present invention.

Fig. 5 is an enlarged perspective view of the present invention at a.

Fig. 6 is a schematic perspective view of a transmission assembly according to the present invention.

Fig. 7 is a schematic perspective view of a first fixing assembly according to the present invention.

Fig. 8 is an exploded view of a portion of a first securing assembly according to the present invention.

Fig. 9 is a schematic perspective view of the first fixing plate, the driving member and other parts according to the present invention.

Fig. 10 is a schematic perspective view of a second fixing assembly according to the present invention.

Fig. 11 is an enlarged perspective view of the present invention at B.

Fig. 12 is an enlarged perspective view of the present invention at C.

FIG. 13 is a schematic view showing the connection relationship of the second slide bar, the L-shaped bar and the third slide bar according to the present invention.

Fig. 14 is a schematic view showing the connection relationship between the guide plate and the rotating rod according to the present invention.

Fig. 15 is a schematic diagram showing the connection relationship of the second fixing plate, the sliding block and the supporting plate according to the present invention.

Fig. 16 is a schematic perspective view of the support plate, the second sliding plate, and other parts according to the present invention.

Reference numerals: 1-box, 2-box door, 3-first slide, 4-first fixed plate, 5-second fixed plate, 501-first transmission rod, 502-second transmission rod, 503-first straight gear, 504-second straight gear, 5041-fixed mount, 505-spline link, 5051-rotating block, 506-third straight gear, 507-fourth straight gear, 6-absorbing member, 701-first slide, 702-limit mount, 703-first fixed rod, 704-first slide, 705-limit mount, 706-connecting rope, 707-driving member, 801-second slide, 8011-first rack, 802-third slide, 803-second slide, 804-L-shaped rod, 805-third slide, 806-limit plate, 807-second fixed rod, 901-guide plate, 9011-second rack, 902-rotating rod, 1001-sliding block, 1002-support plate, 1003-second slide.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1: 1-4 and 7-9, the glass finished product storage device with multiple fixing functions comprises a box body 1, wherein the box body 1 is hinged with a box door 2, the box body 1 is connected with first sliding frames 3 distributed at equal intervals in a sliding manner, the upper side of each first sliding frame 3 is fixedly connected with a first fixing plate 4, the lower side of each first fixing plate 4 is hinged with a second fixing plate 5, each first fixing plate 4 is fixedly connected with an adsorption piece 6, the adsorption pieces 6 are fixedly connected with the second fixing plates 5, adjacent adsorption pieces 6 are distributed oppositely and used for fixing the left side and the right side of glass, each first sliding frame 3 is provided with a first fixing component which is used for limiting the upper side of the glass and preventing the glass from shaking up and down, each first fixing component comprises a first sliding plate 701, each first sliding plate 701 is connected with the upper part of each first sliding frame 3 in a sliding manner, a spring (in a compression state is shown in the figure) is arranged between each first sliding plate 701 and each first sliding frame 3, the first sliding plate 701 is fixedly connected with a limiting frame 702, the limiting frame 702 is in sliding connection with the first fixed plate 4, the right side of the limiting frame 702 is provided with limiting grooves which are distributed at equal intervals, the vertical section of each limiting groove is in a right triangle shape, the upper side is a bevel edge, the adsorption piece 6 fixedly connected with the first fixed plate 4 is fixedly connected with a first fixed rod 703, the right upper part of the first fixed rod 703 is fixedly connected with two first sliding rods 704 which are distributed front and back symmetrically, the two first sliding rods 704 are in sliding connection with a limiting block 705 together, the vertical section of the limiting block 705 is in a right trapezoid shape, the upper side is an upper bottom, the lower side is a lower bottom, the left side is a bevel edge, the limiting block 705 is in one-way limiting fit with the limiting grooves of the limiting frame 702, the first sliding rod 704 is wound with a spring, the first sliding rod 704 is positioned between the limiting block 705 and the first fixed rod 703, the first sliding plate 701 is fixedly connected with a connecting rope 706, the first fixed plate 4 is hinged with driving parts 707 which are symmetrically distributed in the front-back direction, the telescopic ends of the driving parts 707 are hinged with the second fixed plate 5, the second fixed plate 5 is used for enabling the second fixed plate 5 to rotate along the first fixed plate 4, the second fixed plate 5 is provided with second fixed components, and the second fixed components are used for limiting the front side and the rear side of glass.

As shown in fig. 4 and fig. 10-13, the second fixing component includes a second sliding frame 801 that is symmetrically distributed around, the second sliding frame 801 is slidably connected to the second fixing plate 5, two first racks 8011 are fixedly connected to one side of the second sliding frame 801, which is close to the adjacent absorbing member 6, a transmission component is disposed between the second fixing plate 5 and the first sliding frame 3, the transmission component is matched with the two first racks 8011, the second sliding frame 801 is slidably connected with three third sliding rods 805 that are equidistantly distributed, the three third sliding rods 805 are fixedly connected with limiting plates 806, a spring is disposed between the limiting plates 806 and the adjacent second sliding frame 801, the second fixing plate 5 is slidably connected with a third sliding frame 802 that is symmetrically distributed around, the third sliding frame 802 is fixedly connected with a second fixing rod 807, the second sliding rod 807 is rotatably connected with the first fixing plate 4, the third sliding frame 802 is slidably connected with a second sliding rod 803, the second sliding rod is fixedly connected with three L-shaped rods 804 that are equidistantly distributed, the third sliding rods 805 are fixedly connected with a limiting groove that is equidistantly distributed, a limiting groove is disposed between the third sliding rod 805 and the adjacent third sliding frame 803 is matched with the limiting groove 803, and the limiting groove is further arranged between the third sliding frame 803 and the adjacent sliding frame 803.

As shown in fig. 5, fig. 6 and fig. 11, the transmission assembly comprises a first transmission rod 501, the first transmission rod 501 is rotationally connected to a second fixed plate 5 through a mounting frame, the second fixed plate 5 is rotationally connected with a second transmission rod 502 which is symmetrically distributed through the mounting frame, the first transmission rod 501 and the second transmission rod 502 which is symmetrically distributed are both transmitted through a bevel gear set, the second fixed plate 5 is fixedly connected with a first straight gear 503 which is symmetrically distributed, a first sliding frame 3 is fixedly connected with a fixing frame 5041 which is symmetrically distributed, the fixing frame 5041 is rotationally connected with a second straight gear 504 which is meshed with an adjacent first straight gear 503 through a rotation shaft, the second fixed plate 5 is fixedly connected with a spline connecting rod 505 which is symmetrically distributed through the mounting frame, the spline connecting rod 505 is rotationally connected with the rotation shaft of the adjacent fixing frame 5041 through the bevel gear set, the first transmission rod 501 and the spline connecting rod 505 which is symmetrically distributed are all transmitted through the bevel gear set, the second transmission rod 502 is fixedly connected with a third straight gear 506 and a fourth straight gear 507, and the third straight gear 506 is meshed with the adjacent first straight gear 8011.

As shown in fig. 10, 11 and 14, the second fixing plate 5 is slidably connected with a guiding plate 901 symmetrically distributed around, two second racks 9011 are fixedly connected to the left side of the guiding plate 901, the second racks 9011 penetrate through the second fixing plate 5 and are slidably connected with the second fixing plate, the second racks 9011 are meshed with fourth adjacent spur gears 507, the guiding plate 901 is rotatably connected with rotating rods 902 distributed at equal intervals, and the rotating rods 902 are matched with glass and used for supporting and guiding the glass and reducing friction force born by the glass.

When depositing and transporting glass finished products through this device, the user opens chamber door 2, forward pulling one of them first carriage 3, first carriage 3 drives first fixed plate 4 and moves forward, first fixed plate 4 drives second fixed plate 5 and moves forward, until first fixed plate 4 and second fixed plate 5 remove outside box 1, the user pulls suction piece 6 to the direction that keeps away from adjacent first fixed plate 4, suction piece 6 that is close to first fixed plate 4 drives first dead lever 703 and moves right, first dead lever 703 drives two first slide levers 704 and moves right, first dead lever 703 drives stopper 705 to keep away from the spacing groove of spacing 702 right through the spring of first dead lever 703, spacing 702 loses the spacing of stopper 705, the spring reset of first slide plate 701 drives first slide plate 701 and spacing 702 upward movement.

The user activates the driving member 707, the telescopic end of the driving member 707 pushes the second fixing plate 5 to rotate the second fixing plate 5 along the first fixing plate 4, the second fixing rod 807 pulls the adjacent third sliding frame 802 to slide the third sliding frame 802 along the second fixing plate 5 in a direction approaching the first fixing plate 4, the third sliding frame 802 drives the L-shaped rod 804 to move along the second sliding frame 801 in a direction approaching the first fixing plate 4 through the second sliding rod 803, the spring of the L-shaped rod 804 is pressed, and the L-shaped rod 804 releases the limit of the limit groove of the adjacent third sliding rod 805.

When the second fixing plate 5 rotates along the first fixing plate 4, taking the first straight gear 503 on the front side as an example, the first straight gear 503 rotates synchronously with the second fixing plate 5, the first straight gear 503 is meshed with the adjacent second straight gear 504, so that the second straight gear 504 rotates along the adjacent fixed frame 5041 with the rotating shaft of the adjacent fixed frame 5041, the rotating shaft of the fixed frame 5041 drives the adjacent spline connecting rod 505 to rotate through the bevel gear set, because the rotating shaft center of the second straight gear is the central axis of the first straight gear 503, the second straight gear 504 is located on the lower side of the adjacent first straight gear 503, along with the rotation of the second fixing plate 5, the length of the spline connecting rod 505 gradually increases, the spline connecting rod 505 drives the first transmission rod 501 to rotate through the bevel gear set, the first transmission rod 501 drives the second transmission rod 502 through the bevel gear set, and the second transmission rod 502 on the front side drives the third straight gear 506 to rotate, the third straight gear 506 drives the adjacent second sliding frame 801 to slide along the second fixing plate 5 through the adjacent first gear rack 8011, the two second sliding frames 801 are far away from the second sliding frame 801, the second sliding frame 805 drives the second sliding frame 805 moves the second sliding frame 805 away from the adjacent fixing plate 5, and the second sliding frame 803 moves the second sliding frame 803 is far away from the second fixing plate 707, and the limiting plate is closed.

When the second fixing plate 5 rotates along the first fixing plate 4, the second transmission rod 502 drives the guide plate 901 to move rightwards through the engagement of the fourth spur gear 507 and the adjacent second rack 9011, the guide plate 901 drives the adjacent rotating rod 902 to move synchronously, damage caused by excessive friction in the placing process of glass is reduced, and when the driving piece 707 is closed, the guide plate 901 stops moving.

After the second fixing plate 5 is adjusted, a user places glass between the first fixing plate 4 and the second fixing plate 5, the glass contacts the rotating rod 902 and slides downwards along the rotating rod 902, the rotating rod 902 contacts the glass and rotates, the friction born by the rotating rod 902 in the glass moving process is reduced while the rotating rod 902 guides the glass until the glass moves to the bottom of the second fixing plate 5, the glass stops moving, and the single glass storage process is completed.

After the glass is stored, a user starts the driving piece 707, the telescopic end of the driving piece 707 contracts to drive the second fixing plate 5 to rotate and reset along the first fixing plate 4 towards the direction close to the first fixing plate 4, in the process of rotating and resetting the second fixing plate 5, the second fixing plate 5 drives the second sliding frame 801 to move towards the direction close to the second fixing plate 5 through the cooperation of the third spur gear 506 and the adjacent first rack 8011 in the transmission assembly, the second sliding frame 801 drives the second sliding rod 803 to move, the second sliding frame 801 drives the limiting plate 806 to move towards the direction close to the second fixing plate 5 through the third sliding rod 805 until the limiting plate 806 moves to be in contact with the glass, the second sliding frame 801 continues to move towards the direction close to the second fixing plate 5, the third sliding rod 805 slides along the adjacent second sliding frame 801 towards the direction far away from the second fixing plate 5, the third sliding rod 805 drives the adjacent limiting plate 806 to synchronously move, a spring between the limiting plate and the adjacent second sliding frame 801 is extruded, the buffering force of the limiting plate 806 spring reduces the limiting plate 806, and the limiting plate 806 stops shaking force is reduced when the second sliding frame 5 is stopped at two sides after the second sliding frame is reset, and the glass is prevented from being broken in the process of sliding along the two sides after the second sliding frame is reset.

In the process of shrinking the driving member 707, the second fixing rod 807 drives the adjacent third sliding frame 802 to slide along the second fixing plate 5 in a direction away from the first fixing plate 4, the third sliding frame 802 drives the adjacent L-shaped rod 804 to slide along the adjacent second sliding frame 801 through the adjacent second sliding rod 803, the spring of the L-shaped rod 804 gradually resets, and when the second fixing plate 5 resets, the spring of the L-shaped rod 804 resets, the L-shaped rod 804 moves to limit fit with the limit groove of the adjacent third sliding rod 805, and the position of the L-shaped rod 804 is fixed.

After the front side and the rear side of the glass are fixed, a user moves the two adsorption pieces 6 towards the direction close to the glass, the left side and the right side of the glass are fixed in an adsorption mode, the adsorption piece 6 on the right side of the glass drives the first fixing rod 703 to move leftwards, the first fixing rod 703 drives the first sliding rod 704 to move leftwards, the first fixing rod 703 drives the limiting block 705 to move leftwards through a spring to be in limiting fit with a limiting groove adjacent to the limiting frame 702, the user pulls the connecting rope 706 downwards, the connecting rope 706 drives the first sliding plate 701 to slide downwards along the first fixing plate 4, the limiting frame 702 matched with the limiting block 705 presses the limiting block 705 along the limiting groove of the first fixing plate 4, the limiting block 705 slides rightwards along the first sliding rod 704, the spring of the limiting block 705 is compressed, when the user moves the first sliding plate 701 to be in contact with the upper surface of the glass through the connecting rope 706, the spring of the limiting block 705 stops pulling the connecting rope 706 to reset, the limiting block 705 slides leftwards along the first sliding rod 704 to the limiting groove adjacent to the limiting frame 702, and the limiting block 702 is further displaced in the limiting frame is prevented from moving in the limiting device.

The first sliding frame 3 for storing glass is pushed by a user, the first sliding frame 3 is moved into the box body 1, the other first sliding frame 3 is pulled out by the user, the glass is stored in the same mode until the glass is completely stored, the box door 2 is closed, the device is transported, after the transportation is completed, the user repeats the steps, glass between the adjacent first fixing plate 4 and the second fixing plate 5 is pulled out, and the device is reset after the glass is completely pulled out.

Example 2: on the basis of embodiment 1, as shown in fig. 15 and 16, the glass fixing device further comprises a bottom supporting component, the bottom supporting component is used for supporting the lower side face of glass, the bottom supporting component is arranged on the second fixing plate 5, the bottom supporting component comprises sliding blocks 1001 which are distributed front and back symmetrically, the sliding blocks 1001 which are distributed front and back symmetrically are all connected to the second fixing plate 5 in a sliding mode, springs are arranged between the sliding blocks 1001 and the second fixing plate 5, the springs of the sliding blocks 1001 are initially in compression states, the sliding blocks 1001 are fixedly connected with supporting plates 1002, the supporting plates 1002 are located on the right side of the second fixing plate 5, the supporting plates 1002 are connected with second sliding plates 1003 in a sliding mode and are used for adapting to the movement of the glass to adjust the position of the glass, the length of the supporting plates 1002 is smaller than the distance between the symmetrically distributed guiding plates 901, and the length of the second sliding plates 1003 is smaller than the distance between the two guiding plates 901, so that collision is prevented when the second sliding plates 1003, the supporting plates 1002 and the two guiding plates 901 move.

When a worker places glass between the first fixing plate 4 and the second fixing plate 5, the glass is placed on the second sliding plate 1003, the second sliding plate 1003 and the supporting plate 1002 synchronously move downwards, the supporting plate 1002 drives the sliding block 1001 to slide downwards along the second fixing plate 5, springs of the sliding block 1001 are compressed, the downward placing speed of the glass is buffered by the springs of the sliding block 1001, the downward placing speed of the glass is slowed down, the glass is protected, the second sliding plate 1003 is located between two adjacent guide plates 901 in an initial state, the two sliding blocks 1001 are prevented from protruding out along the second fixing plate 5, when the limiting plates 806 fix the front side and the rear side of the glass, the guide plates 901 are retracted into the second fixing plate 5, the limiting plates 806 push the glass, the glass is located in the middle of the second fixing plate 5, the second sliding plate 1003 and the glass synchronously move, friction force born by the glass in the moving process is reduced, the glass is prevented from being damaged in the moving process, and after the glass is taken out by a user, the user moves the second sliding plate 1003 to reset.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a glass finished product strorage device with multiple fixed function, including box (1), box (1) articulates there is chamber door (2), box (1) sliding connection has first carriage (3) of equidistance distribution, first carriage (3) rigid coupling has first fixed plate (4), first fixed plate (4) articulates there is second fixed plate (5), first fixed plate (4) all rigid couplings with second fixed plate (5) have adsorption piece (6), adjacent adsorption piece (6) opposite direction distribution, a serial communication port, still include first fixed subassembly, first fixed subassembly is used for spacing glass, first fixed subassembly sets up in first carriage (3), first fixed subassembly is including first sliding plate (701), first sliding plate (701) sliding connection is in first fixed plate (4), be provided with the spring between first sliding plate (701) and first fixed plate (4), first sliding plate (701) rigid coupling has spacing frame (702) with first fixed plate (4) sliding connection, spacing frame (702) are provided with adsorption piece (702), spacing rod (703) rigid coupling of first sliding plate (704) has spacing rod (703) of first sliding connection, spacing rod (703) fixed connection has spacing rod (703), a spring is arranged between the limiting block (705) and the first fixed rod (703), a connecting rope (706) is fixedly connected to the first sliding plate (701), and a second fixed component for limiting glass is arranged on the second fixed plate (5).

2. The finished glass product storage device with multiple fixing functions according to claim 1, wherein the limiting block (705) is in one-way limiting fit with the limiting groove of the limiting frame (702).

3. A finished glass storage device with multiple fixing functions according to claim 1, characterized in that the first fixing plate (4) is hinged with a driving member (707), the telescopic end of the driving member (707) being hinged with the second fixing plate (5).

4. The glass finished product storage device with multiple fixing functions according to claim 1, wherein the second fixing component comprises second sliding frames (801) which are symmetrically distributed, the second sliding frames (801) are slidably connected to the second fixing plates (5), first racks (8011) are fixedly connected to the second sliding frames (801), transmission components are arranged between the second fixing plates (5) and the first sliding frames (3), the transmission components are matched with the first racks (8011), the second sliding frames (801) are slidably connected with third sliding rods (805) which are distributed at equal intervals, limiting plates (806) are fixedly connected to the third sliding rods (805) which are distributed at equal intervals, and springs are arranged between the limiting plates (806) and the adjacent second sliding frames (801).

5. The glass finished product storage device with multiple fixing functions according to claim 4, wherein the transmission assembly comprises a first transmission rod (501), the first transmission rod (501) is rotationally connected with a second fixed plate (5) through a mounting frame, the second fixed plate (5) is rotationally connected with a second transmission rod (502) which is symmetrically distributed through the mounting frame, the first transmission rod (501) and the second transmission rod (502) which is symmetrically distributed are all transmitted through a bevel gear set, the second fixed plate (5) is fixedly connected with a first straight gear (503) which is symmetrically distributed, the first sliding frame (3) is fixedly connected with a fixed frame (5041) which is symmetrically distributed, the fixed frame (5041) is rotationally connected with a second straight gear (504) which is meshed with an adjacent first straight gear (503) through a rotating shaft, the second fixed plate (5) is fixedly connected with a spline connecting rod (505) which is symmetrically distributed through the mounting frame, the spline connecting rod (505) is slidingly connected with a rotating block (5051), the rotating block (5051) is rotationally connected with a rotating shaft of the adjacent fixed frame (5041), the spline connecting rod (505) and the rotating shaft of the adjacent fixed frame (5041) are fixedly connected with a spline connecting rod (505) through a bevel gear set, the first straight gear (506) is fixedly connected with a second straight gear (506) through the rotating shaft, the first straight gear (507) and the spline connecting rod (506) is fixedly connected with the spline connecting rod (507), the third spur gear (506) is meshed with an adjacent first rack (8011).

6. The glass finished product storage device with multiple fixing functions according to claim 4, wherein the second fixing plate (5) is slidably connected with third sliding frames (802) which are symmetrically distributed, the third sliding frames (802) are fixedly connected with second fixing rods (807) which are rotationally connected with the first fixing plate (4), the third sliding frames (802) are slidably connected with second sliding rods (803), the second sliding rods (803) are fixedly connected with L-shaped rods (804) which are equidistantly distributed, the third sliding rods (805) are provided with limit grooves which are equidistantly distributed, the L-shaped rods (804) are in limit fit with limit grooves of adjacent third sliding rods (805), and springs are arranged between the L-shaped rods (804) and the adjacent second sliding frames (801).

7. The glass finished product storage device with multiple fixing functions according to claim 5, wherein the second fixing plate (5) is slidably connected with symmetrically distributed guide plates (901), the guide plates (901) are fixedly connected with second racks (9011), the second racks (9011) are slidably connected with the second fixing plate (5), the second racks (9011) are meshed with adjacent fourth spur gears (507), the guide plates (901) are rotatably connected with equidistant distributed rotating rods (902), and the rotating rods (902) are matched with glass to reduce friction force born by the glass.

8. The glass finished product storage device with multiple fixing functions according to claim 1, further comprising a bottom supporting component, wherein the bottom supporting component is used for supporting glass, the bottom supporting component is arranged on the second fixing plate (5), the bottom supporting component comprises a sliding block (1001), the sliding block (1001) is slidably connected to the second fixing plate (5), a spring is arranged between the sliding block (1001) and the second fixing plate (5), and the supporting plate (1002) is fixedly connected to the sliding block (1001).

9. A finished glass storage device with multiple fixing functions according to claim 8, characterized in that the support plate (1002) is slidingly connected with a second sliding plate (1003) for adjusting the position of the glass.

10. A finished glass storage device with multiple fixing functions according to claim 9, characterized in that the length of the support plate (1002) and the second sliding plate (1003) is smaller than the distance between symmetrically distributed guide plates (901).